Magnetostrictive transducer
    1.
    发明授权
    Magnetostrictive transducer 失效
    磁致伸缩传感器

    公开(公告)号:US4599591A

    公开(公告)日:1986-07-08

    申请号:US731697

    申请日:1985-05-08

    IPC分类号: H01L41/12 H01F7/00

    CPC分类号: H01L41/12

    摘要: A magnetostrictive transducer utilizing magnetostrictive material and a plurality of windings connected to current sources having a phase relationship so as to establish a rotating magnetic induction vector within the magnetostrictive material.

    摘要翻译: 利用磁致伸缩材料的磁致伸缩传感器和连接到具有相位关系的电流源的多个绕组,以在磁致伸缩材料内建立旋转磁感应矢量。

    Method of preparing an oriented low alloy iron from an ingot alloy
having a high initial sulfur content
    2.
    发明授权
    Method of preparing an oriented low alloy iron from an ingot alloy having a high initial sulfur content 失效
    从初始硫含量高的锭合金制备定向低合金铁的方法

    公开(公告)号:US4251295A

    公开(公告)日:1981-02-17

    申请号:US38359

    申请日:1979-05-11

    IPC分类号: C21D8/12 H01F1/16 H01F1/00

    摘要: This is an ingot alloy composition and method suitable for making a low-alloy iron having desirable magnetic characteristics suitable for electrical applications such as transformers cores. The ingot alloy has relatively high (0.012-0.020%) sulfur and thus can be prepared with reduced melting cost (as compared to ingot alloys which are to have low sulfur content). To provide for good sulfur removal during processing, however, the manganese content of the ingot alloy must be kept very low (less than 0.01%, if the final annealing is to be performed at about (800.degree.-1000.degree. C.). The ingot alloy also contains 0.1-2% silicon, 0.1-2% chromium, 0.005-0.030% carbon, less than 0.004% oxygen and the balance essentially iron. The method provides for hot-rolling the above described ingot alloy at 900.degree.-1200.degree. C., annealing for 3-10 hours at 750.degree.-900.degree. C., cold-rolling with a 50-75% reduction, annealing for 3-10 hours at 750.degree.-900.degree. C., and cold-rolling with a 50-75% reduction to final thickness. The final annealing is performed for 24-72 hours at 800.degree. to 1000.degree. C.

    摘要翻译: 这是适用于制造具有适合于诸如变压器芯之类的电气应用的理想磁特性的低合金铁的锭合金组成和方法。 铸锭合金具有相对高的(0.012-0.020%)的硫,因此可以以降低熔融成本(与具有低硫含量的锭合金相比)来制备。 然而,为了在加工过程中提供良好的硫去除,铸锭合金的锰含量必须保持非常低(如果在约(800-1000℃)下进行最终退火,则其含量必须低于0.01%) 锭合金还含有0.1-2%的硅,0.1-2%的铬,0.005-0.030%的碳,小于0.004%的氧,余量基本上是铁,该方法提供了上述铸锭合金在900°-1200℃的热轧 ℃,在750-900℃退火3-10小时,冷轧减少50-75%,在750-900℃下退火3-10小时,并用 最终退火时间为50-75%,最终退火温度在800〜1000℃下进行24-72小时。

    Oriented low-alloy iron containing critical amounts of silicon and
chromium
    3.
    发明授权
    Oriented low-alloy iron containing critical amounts of silicon and chromium 失效
    含有临界量的硅和铬的定向低合金铁

    公开(公告)号:US4255215A

    公开(公告)日:1981-03-10

    申请号:US38361

    申请日:1979-05-11

    摘要: This is a low-alloy iron having desirable magnetic characteristics suitable for electrical applications such as transformer cores. This material has improved texture and reduced core losses. The alloys contain 0.6-1.0% silicon and 0.4-0.8% chromium along with controlled levels of manganese, sulfur, carbon and oxygen. These alloys are preferably processed to about 0.006 inch (0.015 cm) final gauge using schedules with three coldrolling steps. B.sub.10 values above 19 kG and 17 kG losses below 0.72 watts per pound are obtained with these alloys.

    摘要翻译: 这是具有适合于诸如变压器铁芯的电气应用的理想磁特性的低合金铁。 该材料具有改进的质感和降低的磁心损耗。 合金含有0.6-1.0%的硅和0.4-0.8%的铬以及受控的锰,硫,碳和氧的含量。 这些合金优选使用具有三个冷轧步骤的时间表加工至约0.006英寸(0.015cm)的最终规格。 使用这些合金可获得高于19kG的B10值和低于0.72W /磅的17kG损失。

    Coatings for reduced losses in (110) [001] oriented silicon iron
    4.
    发明授权
    Coatings for reduced losses in (110) [001] oriented silicon iron 失效
    (110){8 001 {9 {0定向硅铁

    公开(公告)号:US4165990A

    公开(公告)日:1979-08-28

    申请号:US883439

    申请日:1978-03-06

    摘要: Improved core losses at high operating inductions are obtained in (110) [001] oriented silicon iron through the application of a new coating to the finish gauge material and thereafter heat treating to effect transformation of the underlying steel to the (110) [001] orientation, desulfurizing the underlying steel as well as decarburizing the same. The coating, as fused, is characterized by excellent adherence and a high interlaminar resistance value.

    摘要翻译: 在(110)[001]取向的硅铁中,通过将新的涂层施加到精加工量规材料上,然后进行热处理以使下层钢转变为(110)[001] 定向,对下面的钢进行脱硫以及脱碳。 熔化的涂层的特征在于优异的粘附性和高的层间电阻值。

    Method of preparing an oriented-low-alloy iron from an ingot of
controlled sulfur, manganese and oxygen contents
    5.
    发明授权
    Method of preparing an oriented-low-alloy iron from an ingot of controlled sulfur, manganese and oxygen contents 失效
    从受控硫,锰和氧含量的锭制备定向低合金铁的方法

    公开(公告)号:US4251296A

    公开(公告)日:1981-02-17

    申请号:US38360

    申请日:1979-05-11

    IPC分类号: C21D8/12 H01F1/16 H01F1/00

    摘要: This invention is of a process and an intermediate alloy for making an oriented-low-alloy iron (primarily recrystallized) which obtains maximum (110) [001] texture and improved magnetic properties by controlling the sulfur, carbon, manganese, and oxygen contents in the intermediate alloy to certain critical narrow ranges. With alloys containing the 0.01-0.15 percent manganese normally found in commercially available iron, the optimum intermediate (prior to final anneal) sulfur level has been found to be 0.004-0.008 percent. This sulfur level is appropriate for such manganese contents for a wide variety of silicon and chromium content. Similarly an intermediate carbon level of between 0.002 and 0.020% has been shown to give the maximum texture and best properties. The oxygen level must be 0.005 percent or lower and should be held as low as practicable. With these levels of sulfur, carbon, manganese, and oxygen, the alloy can be processed by hot rolling at 900.degree.-1200.degree. C. (usually between 1000.degree.-1100.degree. C.), followed by either two or three cold rolling stages with the final cold rolling providing a 50-75 percent reduction, and with annealing at between 750.degree. C. and the A.sub.Cl temperature of the material between cold rollings. The alloy can also contain 0-3% cobalt and up to total of 2% chromium and silicon.

    摘要翻译: 本发明是一种通过控制硫,碳,锰和氧含量来获得最大(110)[001]结构和改善磁性能的方法和中间合金,用于制造定向低合金铁(主要是重结晶) 中间合金到某些关键的窄范围。 含有通常在市售铁中含量为0.01-0.15%的锰的合金中,发现最佳中间体(最终退火前)硫含量为0.004-0.008%。 这种硫含量适用于各种硅和铬含量的这种锰含量。 类似地,0.002和0.020%之间的中间碳含量已显示出最大的质感和最佳性能。 氧气含量必须为0.005%以下,应尽可能低。 通过这些硫,碳,锰和氧的含量,合金可以在900〜1200℃(通常在1000〜1100℃)之间进行热轧,然后进行两个或三个冷轧阶段 最终冷轧提供50-75%的减少量,并且在750℃之间退火和冷轧之间的材料的AC1温度。 该合金还可以含有0-3%的钴和最多2%的铬和硅。

    Method of producing doubly oriented cobalt iron alloys
    6.
    发明授权
    Method of producing doubly oriented cobalt iron alloys 失效
    生产双取向钴铁合金的方法

    公开(公告)号:US3977919A

    公开(公告)日:1976-08-31

    申请号:US532284

    申请日:1974-12-12

    CPC分类号: C21D8/12 C22C38/10 H01F1/147

    摘要: An alloy and process are described for obtaining improved magnetic characteristics in iron-cobalt alloys. The iron-cobalt alloys described are characterized by a cube-on-face texture, primary recrystallized and normal grain growth microstructure. Processes are described which include both a single stage cold working and a multiple stage cold working in order to obtain the desired texture in the finished alloy.

    摘要翻译: 描述了一种合金和工艺,用于获得铁 - 钴合金中改善的磁特性。 描述的铁 - 钴合金的特征在于立方体面组织,一次再结晶和正常晶粒生长微结构。 描述了包括单级冷加工和多级冷加工以便在成品合金中获得所需质地的方法。

    Method of improving the core-loss characteristics of cube-on-edge
oriented silicon-iron
    7.
    发明授权
    Method of improving the core-loss characteristics of cube-on-edge oriented silicon-iron 失效
    改善立方体立方硅钢铁芯损耗特性的方法

    公开(公告)号:US3932235A

    公开(公告)日:1976-01-13

    申请号:US467696

    申请日:1974-05-07

    申请人: Karl Foster

    发明人: Karl Foster

    摘要: A process is described in which an iron-silicon alloy capable of being heat treated to produce a cube-on-edge (110) [001] grain orientation is treated to produce improved core losses when the material is under high operating inductions. The process steps include cleaning the surface of the steel of finish gauge thickness, applying a coating to the surface of the steel which is non-reactive with the surface and promotes decarburization, heating to a temperature sufficiently high to effect secondary recrystallization texture development and decarburization and cooling to room temperature. Data are included which demonstrate the improved core losses exhibited by these materials so treated when tested at high operating inductions.

    摘要翻译: 描述了一种方法,其中处理能够被热处理以产生立方体边缘(110)[001]晶粒取向的铁 - 硅合金,以在材料处于高工作感应下时产生改善的磁芯损耗。 工艺步骤包括清洁钢板表面厚度,对钢板表面施加涂层,使其表面无反应,促进脱碳,加热至足够高的温度,进行二次再结晶织构显影和脱碳 并冷却至室温。 包括数据,证明了在高工作感应测试时,这些被处理的材料表现出的改进的磁芯损耗。

    Secondary recrystallized oriented low-alloy iron
    8.
    发明授权
    Secondary recrystallized oriented low-alloy iron 失效
    二次再结晶取向低合金铁

    公开(公告)号:US4416707A

    公开(公告)日:1983-11-22

    申请号:US301543

    申请日:1981-09-14

    IPC分类号: C21D8/12 H01F1/147 H01F1/04

    摘要: An alloy and a method of making the same are described. This alloy is suitable for use in an electrical magnetic induction apparatus. The alloy is characterized in that it may undergo an .alpha..revreaction..gamma. phase transformation upon heating to a sufficiently high temperature and in which the microstructure is oriented in the (110)[001] manner as described by Miller indices and is further characterized by a secondary recrystallized microstructure. The specification is replete with magnetic induction data as well as core loss data for alloys falling within the scope of the invention.

    摘要翻译: 对合金及其制造方法进行说明。 该合金适用于电磁感应装置。 该合金的特征在于,当加热到足够高的温度时,它可以经历α→γ-γ相变,并且其中微结构以(110)[001]方式取向,如米勒指数所述,并进一步表征 通过二次再结晶显微组织。 该规格充满磁感应数据以及落在本发明范围内的合金的铁损损失数据。

    Loss reduction in oriented iron-base alloys containing sulfur
    9.
    发明授权
    Loss reduction in oriented iron-base alloys containing sulfur 失效
    含硫的定向铁基合金的损耗减少

    公开(公告)号:US4269634A

    公开(公告)日:1981-05-26

    申请号:US100089

    申请日:1979-12-04

    摘要: This is a method for making a low alloy iron having desirable magnetic characteristics suitable for electrical applications such as transformer cores. The ingot alloy has a relatively high (more than 50 ppm) sulfur and relatively high manganese (0.01-0.15%) and thus can be prepared from commercially available materials without further purification. While the sulfur in such a manganese containing alloy is not removed during final annealing (due to generally less than about 950.degree. C. final annealing temperatures of the primary recrystallization process) the use of a tensile stress (at least 200 psi) inducing glass coating provides for very low losses. The material contains significant amounts of both sulfur and manganese. Both the sulfur and manganese contribute towards the meltability of the alloy and the manganese contributes towards the workability (especially for cool rolling) of the sulfur containing material. Thus the material containing manganese and sulfur, has the high permeability of a low silicon primarily recrystallized material, but does not have the high losses normally associated with a relatively high sulfur containing magnetic material.

    摘要翻译: 这是制造具有适合于诸如变压器铁芯等电气应用的理想磁特性的低合金铁的方法。 铸锭合金具有相对高(大于50ppm)的硫和相对高的锰(0.01-0.15%),因此可以从市售材料制备而不进一步纯化。 尽管在最终退火期间(由于一次再结晶过程的最终退火温度通常小于约950℃),这种含锰合金中的硫不被去除)使用拉伸应力(至少200psi)诱导玻璃涂层 提供非常低的损失。 该材料含有大量的硫和锰。 硫和锰都有助于合金的熔融性,并且锰有助于含硫材料的可加工性(特别是冷轧)。 因此,含有锰和硫的材料具有低硅主要再结晶材料的高导磁率,但不具有通常与较高含硫磁性材料相关的高损耗。

    Coatings for reduced losses in (110) [001] oriented silicon iron
    10.
    发明授权
    Coatings for reduced losses in (110) [001] oriented silicon iron 失效
    (110)[001]取向硅铁的损耗降低的涂层

    公开(公告)号:US4207123A

    公开(公告)日:1980-06-10

    申请号:US970777

    申请日:1978-12-18

    摘要: Improved core losses at high operating inductions are obtained in (110) [001] oriented silicon iron through the application of a new coating to the finish gauge material and thereafter heat treating to effect transformation of the underlying steel to the (110) [001] orientation, desulfurizing the underlying steel as well as decarburizing the same. The coating, as fused, is characterized by excellent adherence and a high interlaminar resistance value.

    摘要翻译: 在(110)[001]取向的硅铁中,通过将新的涂层施加到精加工量规材料上,然后进行热处理以使下层钢转变为(110)[001] 定向,对下面的钢进行脱硫以及脱碳。 熔化的涂层的特征在于优异的粘附性和高的层间电阻值。